Harris® OPtO+™ fiber optic solutions can transmit broadcast-quality audio and video signals, as well as various other signal types such as GPI/O, serial, Ethernet, and RF signals. This flexible and cost-effective solution is suitable for a wide range of applications including broadcasting, satellite TV, cable TV, live events (OB), post-production, telecommunications, and government. OPtO+ is compatible with Harris distribution amplifiers (Da), routers, and frame synchronizers, providing an efficient, reliable, and economical way to transmit video, audio, data, SD (standard definition), HD (high definition), and 3 Gb/s signals through any workflow.
OBS+OP+5050D
Optical power splitter, 50/50 split
The OBS+OP+5050D optical protection switch and power splitter are integral components of end-to-end fiber optic network design, providing path redundancy and network resilience. In the design of redundant path fiber optic networks, or in optical signal monitoring applications where the power budget allows for a 50% power loss, the power splitter and protection switch play a crucial role.
OBS6800+CD
1310/1550 nm Passive Optical Multiplexer/Demultiplexer
The OBS6800+CD is a full-spectrum optical splitter and combiner. The OBS6800+CD can split or combine wavelengths from 1310 to 1550 nm, featuring low insertion loss and high isolation capability, allowing for a single fiber.
Bidirectional application on single-mode fiber.
OMS6800+CxxD
4-channel or 8-channel CWDM Multiplexer
The OMS6800+ is a passive 4-channel or 8-channel multiplexer suitable for Coarse Wavelength Division Multiplexing (CWDM) systems, compliant with the ITU-T G 694 2 standard regarding CWDM wavelengths. These products offer a variety of connector options, including SC, ST, and FC. The OMS6800+ demultiplexer can utilize all 16 wavelengths without the need for low water peak fiber and operates within the wavelength range of 1271 to 1611 nm.
OP+DWDM8
8-channel passive DWDM multiplexer/demultiplexer
The OP+DWDM8 is an eight-channel fiber module that supports Dense Wavelength Division Multiplexing (DWDM) and demultiplexing. With a high signal fiber density ratio, the OP+DWDM8 is particularly suitable for long-distance transmission of fiber signals. It allows for the multiplexing and transmission of a large number of various format signals — all accomplished through a single fiber.
OP+DWDM40
40-channel passive DWDM multiplexer/demultiplexer, 1RU standalone module OP+DWDM40
The fiber module is a 40-channel standalone product housed in a 1RU chassis, supporting Dense Wavelength Division Multiplexing (DWDM) and demultiplexing. With a high signal fiber density ratio,
the OP+DWDM40 is particularly suitable for long-distance transmission of fiber signals. It allows for the multiplexing and transmission of a large number of various format signals — all accomplished through a single fiber.
OP+HDX
Automatic sensing 3G/HD/SD demultiplexer, featuring eight AES outputs and a light receiver, suitable for the 6800+™ chassis.
The HDX6803+D 3G/HD/SD de-embedder includes up to eight AES outputs and a video processing amplifier. This product allows for audio de-embedding processing of hot-switched audio while simultaneously controlling video processing. This new module provides complete audio delay, audio processing, and external signal source metadata de-embedding capabilities. The HDX6803+D is an ideal choice for broadcasting operations that require audio de-embedding from HD or SD video signals, or applications that need to process SD or HD video along with (embedded and/or separated) audio. The OP+HDX+R+D version includes an optical submodule, allowing for the addition of an optical receiver to supplement the electrical input.
OP+HMX
Automatic detection 3G/HD/SD multiplexer, featuring eight AES inputs and an optical transmitter.
The HMX6803+ 3G/HD/SD inserter module includes up to eight AES inputs and a video processing amplifier. This module can be used to control graphics and includes an embedded audio processor for generating hot-swappable embedded audio, providing complete audio delay and processing capabilities, as well as the embedding of external signal source metadata. The HMX6803+D can play a role in any broadcasting facility that requires AES embedding of SD or HD signals, or in applications where processing SD or HD video and audio signals is critical. The OP+HMX+D version includes an optical submodule, allowing for the addition of an optical transmitter to supplement the electrical input.
OP+EOT
Single-channel 3G/HD/SD/ASI with optical transmitter.
The OP+EOT module configuration supports single wavelength, single-mode fiber, multi-mode fiber, and 16-channel sparse wavelength division multiplexing (CWDM). This set of modules is specifically designed for broadcast signals distributed electrically or optically.
Optional single optical output (OP+EOT), two optical outputs (OP+EOT+2), and four optical outputs (OP+EOT+4).
All OP+EOT modules operate at the following data transmission rates:
• 270 Mb/s (SD-SDI and DVB-ASI)
• 1483 5 Mb/s (HD-SDI)
• 1485 Mb/s (HD-SDI)
• 2967 Mb/s (HD-SDI)
• 2970 Mb/s (HD-SDI)
• Any rate from 50 Mb/s to 3 Gb/s without clock regeneration
OP+EOT+2
Single-channel 3G/HD/SD/ASI with dual optical transmitters.
The OP+EOT module configuration supports single wavelength, single-mode fiber, multimode fiber, and 16-channel sparse wavelength division multiplexing (CWDM). This set of modules is specifically designed for broadcast signals distributed electrically or optically.
Optional single fiber output (OP+EOT), two fiber outputs (OP+EOT+2), and four fiber outputs (OP+EOT+4).
All OP+EOT modules operate at the following data transmission rates:
• 270 Mb/s (SD-SDI and DVB-ASI)
• 1483 5 Mb/s (HD-SDI)
• 1485 Mb/s (HD-SDI)
• 2967 Mb/s (HD-SDI)
• 2970 Mb/s (HD-SDI)
• Any rate from 50 Mb/s to 3 Gb/s without clock regeneration.
OP+EOT+4
Single-channel 3G/HD/SD/ASI, equipped with four optical transmitters.
The OP+EOT module configuration supports single wavelength, single-mode fiber, multi-mode fiber, and 16-channel sparse wavelength division multiplexing (CWDM). This set of modules is specifically designed for broadcast signals distributed electrically or optically.
Optional single optical fiber output (OP+EOT), two optical fiber outputs (OP+EOT+2), and four optical fiber outputs (OP+EOT+4).
All OP+EOT modules operate at the following data transmission rates:
• 270 Mb/s (SD-SDI and DVB-ASI)
• 1483 5 Mb/s (HD-SDI)
• 1485 Mb/s (HD-SDI)
• 2967 Mb/s (HD-SDI)
• 2970 Mb/s (HD-SDI)
• No clock regeneration for any rate from 50 Mb/s to 3 Gb/s.
OP+OER+S
Single-channel 3G/HD/SD/ASI with fiber optic receiver
The OP+OER module is a 3 Gb/s HD-SDI optical-electrical receiver. This set of modules is specifically designed for broadcast signals distributed via electrical or optical means. These products are available in single-slot and dual-slot versions (the dual-slot version includes a passive splitter and an additional clock regeneration output), as well as standard sensitivity PIN and high sensitivity APD versions.
OP+OER+SF+D
Single-channel 3G/HD/SD/ASI, with fiber optic receiver and transmitter.
The OP+OER module is a 3 Gb/s HD-SDI optical-electrical receiver. This set of modules is specifically designed for broadcast signals distributed via electrical or optical means. These products are available in single-slot and dual-slot versions (the dual-slot version adds
A passive splitter and an additional clock regeneration output, as well as standard sensitivity PIN and high sensitivity APD versions.
OP+SFS+
Supports 3G/HD/SD audio/video frame synchronizers, with optical transmitter or receiver.
The SFS6803+ 3G/HD/SD Video Frame Synchronizer is an automatic timing serial digital frame synchronizer and audio synchronizer processing module designed for the 6800+™ frame. This module provides video frame synchronization and delay for 3G/HD/SD signals and can be used in any broadcast, post-production, cable, or mobile application that requires processing and synchronizing SD or HD video/audio (embedded and/or separate) signals. The SFS6803+ is capable of recalibrating the timing of I/O signals based on the local station clock to properly handle all synchronization signals. The OP+SFS+D version includes an optical sub-module, allowing for the addition of an optical transmitter or receiver to supplement the electrical input.
OP+TDMR+8
8-channel 1.5 Gb/s HD-SDI (or 4-channel 3 Gb/s HD-SDI) output, TDM fiber optic receiver
Harris has now launched the OP+TDMT/R+8 series of fiber optic products, providing users with the highest density signal transmission based on fiber optics. This award-winning fiber optic product line can transmit up to four 3 Gb/s signals, eight HD-SDI signals, or eight SD/ASI signals through a single fiber, or any combination of signals with a total bandwidth of up to 12 Gb/s.
The OP+TDMT/R+8 product is designed for use in the 6800+™ modular core processing platform and can transmit up to eight 1.5 Gb/s HD-SDI signal streams using Time Division Multiplexing (TDM). The Harris fiber product line fully incorporates multiplexing technology, facilitating the design of various cost-effective and scalable systems. The OP+TDMT/R+8 product is an ideal solution for applications requiring the transmission of a large number of signals over medium to long distances.
OP+TDMT+8
8-channel 1.5 Gb/s HD-SDI (or 4-channel 3 Gb/s HD-SDI) output, TDM fiber receiver
Harris has launched the OP+TDMT/R+8 series of fiber products, providing users with the highest density signal transmission based on fiber optics. This award-winning fiber product line can transmit up to four 3 Gb/s signals, eight HD-SDI signals, or eight SD/ASI signals over a single fiber, or any combination of signals with a total bandwidth of up to 12 Gb/s.
The OP+TDMT/R+8 fiber product is designed for use in the 6800+™ modular core processing platform and can transmit up to eight 1.5 Gb/s HD-SDI signal streams using Time Division Multiplexing (TDM). The Harris fiber product line fully incorporates multiplexing technology, facilitating the design of various cost-effective and scalable systems. The OP+TDMT/R+8 product is an ideal solution for applications requiring the transmission of a large number of signals over medium to long distances.
OPSS+OP+D
Intelligent Optical Protection Switch
The OPSS+OP+D optical protection switch and power splitter are integral components of end-to-end fiber network design, providing path redundancy and network resilience.
In redundant path fiber network designs, or in optical signal monitoring applications where a 50% power loss is permissible, the power splitter and protection switch play a critical role.
OXS+OP+
3G/HD-SDI/SDI/DVB-ASI Fiber Optic Receiver
OXS+OP+ is an industry-leading 3 Gb/s optical module that can receive optical input from single-mode or multi-mode fibers and convert it back to 3 Gb/s HD-SDI (SMPTE 424M), HD-SDI (SMPTE 292M), SDI (SMPTE 259M and SMPTE 297M), or DVB-ASI (DVB-A010) electrical signals. These modules come standard with support for 270 Mb/s SD-SDI and can be upgraded to 1.5 Gb/s HD-SDI and 3 Gb/s HD-SDI through the purchase of a software key, eliminating the need for costly equipment replacements.
The OXS+OP+ module receives one optical input and provides two identical clock-recovered 3G/HD/SD BNC outputs. These modules include standard PIN optical receivers and high-sensitivity APD optical receivers. Since these modules occupy only one slot in the 6800+™ frame, up to 20 independent 3 Gb/s signals can be transmitted in a 2RU frame.
OXS+2+OP+
Dual-channel 3G/HD-SDI/SDI/DVB-ASI Fiber Optic Receiver
OXS+2+OP+ is an industry-leading 3 Gb/s optical module that can receive optical input from single-mode or multi-mode fibers and convert it back to 3 Gb/s HD-SDI (SMPTE 424M), HD-SDI (SMPTE 292M), SDI (SMPTE 259M and SMPTE 297M), or DVB-ASI (DVB-A010) electrical signals. These modules come standard with support for 270 Mb/s SD-SDI and can be upgraded to 1.5 Gb/s HD-SDI and 3 Gb/s HD-SDI through the purchase of a software key, eliminating the cost of replacing equipment.
The OXS+2+OP module receives two independent optical fiber inputs and provides two independent clock-recovered 3G/HD/SD BNC outputs. These modules include standard PIN optical receivers and high-sensitivity APD optical receivers. Since these modules only occupy one slot in the 6800+™ frame, up to 40 independent 3 Gb/s signals can be transmitted in a 2RU frame.
XOS+OP+
3G/HD-SDI/SDI/DVB-ASI Fiber Optic Transmitter
XOS+OP+ is an industry-leading electro-optical conversion module that supports 3 Gb/s, capable of converting any incoming 3 Gb/s HD-SDI (SMPTE 424M), HD-SDI (SMPTE 292M), SDI (SMPTE 259M and SMPTE 297M) or DVB-ASI (DVB-A010) electrical signals into optical signals for transmission over single-mode or multi-mode fiber. These modules come standard with support for 270 Mb/s SD-SDI and can be upgraded to 1.5 Gb/s HD-SDI and 3 Gb/s SDI through the purchase of a software key. The optional 1310 nm FP laser or CWDM DFB laser output makes these modules suitable for a wide range of applications.
The XOS+OP+ module receives one electrical input and provides one optical output, as well as one electrical output for equalization and clock regeneration for monitoring and publishing. Since these modules only occupy one slot in the 6800+™ chassis, up to 20 independent 3 Gb/s signals can be converted in a 2RU chassis, resulting in a high installation density.
XOS+2+OP+
Dual-channel 3G/HD-SDI/SDI/DVB-ASI Fiber Optic Transmitter
XOS+2+OP+ is an industry-leading electro-optical (E-to-O) conversion module that supports 3 Gb/s. It can convert any incoming 3 Gb/s HD-SDI (SMPTE 424M), HD-SDI (SMPTE 292M), SDI (SMPTE 259M and SMPTE 297M), or DVB-ASI (DVB-A010) electrical signals into optical signals for transmission over single-mode or multi-mode fiber. These modules come standard with support for 270 Mb/s SD-SDI and can be upgraded to 1.5 Gb/s HD-SDI and 3 Gb/s SDI through the purchase of a software key. The optional optical output with a 1310 nm FP laser or CWDM DFB laser makes these modules suitable for a wide range of applications.
The XOS+2 OP module receives two electrical inputs and provides two optical outputs. Since these modules occupy only one slot in the 6800+™ chassis, it is possible to convert up to 40 independent 3 Gb/s signals in a 2RU chassis, resulting in a high installation density.
OP+AVR
One analog video channel, four analog audio channel fiber optic receivers.
The OP+AVR module can provide professional broadcast-level transmission of multiple analog audio and video signals through a single fiber optic interface. These modules utilize an innovative serial connection design to maximize fiber bandwidth, allowing for the transmission of up to 8 channels of analog video and 64 channels of analog audio through this fiber optic interface. Since it only occupies two slots in the 6800+™ chassis, this solution can support up to 20 independent analog video signals and 80 analog audio channels in a single 2RU chassis.
Since the analog video signal is not decoded, the phase information remains unchanged. Therefore, this product can support applications such as long-distance transmission of black field signals to achieve synchronization and phase locking requirements.
The OP+AVR module supports a maximum of one video channel and four audio channels, while the OP+AVR+2 module supports up to two video channels and eight audio channels. Additionally, by combining the extended version of the OP+AVR+2 (OP+AVR+EXP) with the original optical version, a serial connection configuration can be established, allowing for a single optical channel to transmit up to eight video signals and 64 audio signals.
The fiber optic receiver offers both PIN (standard) and APD (high sensitivity) options to meet the needs of applications within buildings, campuses, or metropolitan areas. These modules can be manually controlled via card edge controls or remotely controlled using CCS Navigator™, third-party SNMP-based control applications, HTTP web browsers (for QXFE series chassis only), or the NUCLEUS™ control panel.
OP+AVR+2
Two analog video channels and eight analog audio channels fiber optic receiver
The OP+AVR module provides professional broadcast-quality transmission of multiple analog audio and video signals through a single fiber optic interface. These modules utilize an innovative serial connection design to maximize fiber bandwidth, allowing for the transmission of up to 8 channels of analog video and 64 channels of analog audio through this fiber optic interface. Since it occupies only two slots in the 6800+™ chassis, this solution can support up to 20 independent analog video signals and 80 analog audio channels in a single 2RU chassis. Because the analog video signals are not decoded, the phase information remains unchanged, enabling the product to transmit black field signals over long distances for synchronization locking.
The OP+AVR module supports up to one video channel and four audio channels, while the OP+AVR+2 module supports up to two video channels and eight audio channels. Additionally, by combining the powered interface expansion version of OP+AVR+2 (OP+AVR+EXP) with the original optical version, a serial connection configuration can be established, allowing for one optical channel to transmit up to eight video and 64 audio channels. The fiber optic receiver offers both PIN (standard) and APD (high sensitivity) options to meet the needs of applications within buildings, campuses, or metropolitan areas.
These modules can be manually controlled via card edge controls or remotely controlled using CCS Navigator™, third-party SNMP-based control applications, HTTP web browsers (for QXFE series chassis only), or the NUCLEUS™ control panel.
OP+AVT
One analog video channel and four analog audio channels fiber optic transmitter
The OP+AVT module provides professional broadcast-quality transmission of multiple analog audio and video signals through a single fiber optic interface. These modules utilize an innovative serial connection design to maximize fiber bandwidth, allowing for the transmission of up to 8 channels of analog video and 64 channels of analog audio through this fiber optic interface. Since it occupies only two slots in the 6800+™ chassis, this solution can support up to 20 independent analog video signals and 80 analog audio channels in a single 2RU chassis. Because the analog video signals are not decoded, the phase information remains unchanged, enabling the product to support applications such as long-distance transmission of black field signals for synchronization locking.
The OP+AVT module supports up to one video channel and four audio channels, while the OP+AVT+2 module supports up to two video channels and eight audio channels. Additionally, by combining the powered transmission interface expansion version of OP+AVT+2 (OP+AVT+EXP) with the original optical version, a serial connection configuration can be established, allowing for one optical channel to transmit up to eight video and 64 audio channels. The fiber optic transmitter offers 1310 nm (FP laser) CWDM and DWDM (DFB laser) wavelength options to meet the needs of applications within buildings, campuses, or metropolitan areas.
These modules can be manually controlled via card edge connectors, or remotely controlled using CCS Navigator™, third-party SNMP-based control applications, an HTTP web browser (for QXFE series frames only), or the NUCLEUS™ control panel.
OP+AVT+2
2-channel analog video, 8-channel analog audio fiber optic transmitter
The OP+AVT module can provide professional broadcast-quality transmission of multiple analog audio and video signals through a single fiber optic interface. These modules utilize an innovative serial connection design to maximize fiber bandwidth, allowing for the transmission of up to 8 channels of analog video and 64 channels of analog audio through this fiber optic interface. Since it only occupies two slots in the 6800+™ chassis, this solution can support up to 20 independent analog video signals and 80 analog audio channels in a single 2RU chassis. Because the analog video signals are not decoded, the phase information remains unchanged, enabling the product to support applications such as long-distance transmission of black field signals for synchronization and phase locking requirements.
The OP+AVT module supports a maximum of one video channel and four audio channels, while the OP+AVT+2 module supports up to two video channels and eight audio channels. Additionally, by combining the extended version of the OP+AVT+2 (OP+AVT+EXP) with only the power transmission interface with the original optical version, a serial connection configuration can be established, allowing for the transmission of up to eight video and 64 audio channels through a single optical channel. The optical transmitter offers 1310 nm (FP laser) CWDM and DWDM (DFB laser) wavelength options to meet the needs of applications within buildings, campuses, or metropolitan areas.
These modules can be manually controlled via the card edge controls, or they can be managed using CCS Navigator™, third-party SNMP-based control applications, or HTTP.
OP+DAS
Composite audio/video decoder/synchronizer/multiplexer, optical output, Q-SEE™ compatible
OP+DAS provides analog-to-digital conversion for video and audio, synchronizing audio with video, embedding the synchronized audio (four channels) into the SD-SDI video stream, and transmitting the generated signal via fiber optic interface. The integrated processing amplifier offers comprehensive processing for video and audio signals. This module is the optical version of the DAS6801+.
The module can be manually controlled via the card edge connector, or it can be remotely controlled using CCS Navigator™, third-party SNMP-based control applications, an HTTP web browser (for QXFE series chassis only), or the NUCLEUS™ control panel. The module is compatible with Q-SEE™ and can be directly monitored in thumbnail mode after being installed in a 6800+™ chassis equipped with an Ethernet interface.
OP+HDR
Dual Channel HD/8 SD-SDI TDM Fiber Optic Receiver
The OP+HDR module utilizes Time Division Multiplexing (TDM) technology to achieve high-density transmission of digital video signals over fiber optics. These modules can transmit up to two HD-SDI signals or eight SD-SDI/DVB-ASI signals through a single fiber. Since this solution only occupies two slots in the 6800+™ chassis, it can handle up to 20 independent HD-SDI signals or 80 independent SD-SDI/DVB-ASI signals in a 2RU chassis. When used in conjunction with the OP+HMT, the OP+HDR module can transmit:
• 2 HD-SDI signals
• 8 SD-SDI/DVB-ASI signals
• 1 HD-SDI and 4 SD-SDI signals
The optical fiber transmitter supports 1310 nm FP and 16 CWDM (Coarse Wavelength Division Multiplexing) DFB wavelengths. The optical fiber receiver offers PIN (standard) and APD (high sensitivity) options.
OP+HMT
Dual Channel HD/8 SD-SDI TDM Fiber Optic Transmitter
The OP+HMT module utilizes Time Division Multiplexing (TDM) technology to achieve high-density transmission of digital video signals over fiber optics. These modules can transmit up to two HD-SDI signals or eight SD-SDI/DVB-ASI signals through a single fiber. Since this solution only occupies two slots in the 6800+™ chassis, it can handle a maximum of 20 independent HD-SDI signals or 80 independent SD-SDI/DVB-ASI signals in a 2RU chassis.
When used in conjunction with OP+HDR, the OP+HMT module can transmit:
• 2 HD-SDI signals
• 8 SD-SDI/DVB-ASI signals
• 1 HD-SDI plus 4 SD-SDI signals
The fiber optic transmitter supports 1310 nm FP and 16 CWDM (Coarse Wavelength Division Multiplexing) DFB wavelengths. The fiber optic receiver offers PIN (standard) and APD (high sensitivity) options.
OP+OHB
HD/SD/ASI, AES, RS-232/422/485, GPIO, internal communication receiver
The OP+OHB fiber optic module aggregates different types of signals over fiber in a single module. Each board can integrate audio, video, and data applications, supporting internal communication, RS-232/422/485, and GPIO bidirectional data flow, while enabling unidirectional transmission of HD/SD/SDI video signals and balanced/unbalanced audio signals.
With the OP+OHB module, broadcasters and film production companies can use a single OPTO+™ module to migrate all signal types required for studio applications onto fiber. This high-density solution offers significant space and cost savings while maximizing quality and reliability by simplifying fiber handling requirements. These products are ideal for applications that require the transmission of audio, video, and data information over fiber.
OP+SDR
Four-Channel SD-SDI TDM Fiber Optic Receiver
The OP+SDR module utilizes Time Division Multiplexing (TDM) technology to transmit SD-SDI/DVB-ASI digital video signals over fiber optics. These modules can transmit up to four SD-SDI/DVB-ASI signals through a single optical fiber.
Since it only occupies two slots in the 6800+™ chassis, this solution supports up to 40 independent SD-SDI/DVB-ASI signals in a 2RU chassis.
A pair of OP+SMT/OP+SDR modules can transmit four SD-SDI/DVB-ASI signals.
The optical fiber transmitter supports a 1310 nm FP wavelength and 16 CWDM (Coarse Wavelength Division Multiplexing) DFB wavelengths. The optical fiber receiver offers PIN (standard) and APD (high sensitivity) options.
Features
• Fiber optic input — Supports both single-mode and multi-mode
• Accepts any wavelength from 1260 to 1620nm
• Offers standard PIN or high-sensitivity APD receiver options
• Four-channel BNC output with automatic cable equalization and clock regeneration features.
• Unmodified transparent vertical and horizontal auxiliary data
• Provide video thumbnails for confidence monitoring
• Hot-swappable
• Comprehensive module status monitoring through edge-lit LEDs
• Occupies two slots in the 2RU FR6802+QXFE 6800+ chassis or one standalone FR6800+MB.
6800+ Mixer Frame
• The optional CCS Navigator™ application allows for remote monitoring of status via PC and Ethernet.
• Standard SC/PC type fiber optic connector
• Optional FC/PC or ST/PC fiber optic connectors
OP+SMT
Four-Channel SD-SDI TDM Fiber Optic Transmitter
The OP+SMT module utilizes Time Division Multiplexing (TDM) technology to transmit SD-SDI/DVB-ASI digital video signals over fiber optics. These modules can transmit up to four SD-SDI/DVB-ASI signals through a single fiber optic cable.
Since it only occupies two slots in the 6800+™ chassis, this solution supports up to 40 independent SD-SDI/DVB-ASI signals in a 2RU chassis.
A pair of OP+SMT/OP+SDR modules can transmit four SD-SDI/DVB-ASI signals.
The fiber optic transmitter supports 1310 nm FP and 16 CWDM DFB wavelengths. The fiber optic receiver offers PIN (standard) and APD (high sensitivity) options.
Features
• One fiber optic output — supports both single-mode and multi-mode
• Offers 1310 nm FP and CWDM DFB wavelength options
• Four BNC inputs with automatic cable equalization and clock regeneration features
• Unmodified transparent vertical and horizontal auxiliary data
• Provide video thumbnails for confidence monitoring
• Hot-swappable
• Comprehensive module status monitoring through edge-lit LEDs
• Occupies two slots in the 2RU FR6822+QXFE 6800+ chassis or one standalone FR6800+MB6800+ hybrid chassis.
• The optional CCS Navigator™ application allows for remote monitoring of status via PC and Ethernet.
• Standard SC/PC type fiber optic connector
• Optional FC/PC or ST/PC fiber optic connectors
OP+AES
Fiber Optic AES Transceiver
The OP+AES optical fiber module can reliably and simply transmit multiple AES audio channels over fiber optics. Its outstanding performance makes it an ideal choice for applications such as live broadcast trucks, sports arenas/stages, and event facilities. These modules are equipped with user-selectable receive or transmit functionality, offering configurations of 8 or 16 AES channels, and can operate in a bidirectional mode. The OP+AES module can also be used in serial connections or cascading applications to transmit 128 AES audio channels over a single wavelength — it is the perfect optical fiber solution for the most demanding long-distance AES transmission applications.
OP+HBD
HD/SD/ASI, AES, RS-232/422/485, GPIO, internal communication transmitter
The OP+HBD optical fiber module aggregates different types of signals with optical fiber frequency domains using a single module. Each board can integrate audio, video, and data applications, supporting internal communication, RS-232/422/485, and GPIO bidirectional data flow, while also enabling unidirectional transmission of HD/SD/SDI video signals and balanced/unbalanced audio signals.
With the OP+HBD module, broadcasting and film production companies can utilize an OPTO+™ module to migrate all signal types required in studio applications to fiber optics. This high-density solution offers significant space and cost savings while maximizing quality and reliability by simplifying fiber handling requirements. These products are particularly well-suited for applications that require the transmission of audio, video, and data information over fiber optics.
OP+DAT
Serial Data GPI Transceiver
A pair of collaboratively working OP+DAT modules can aggregate multiple protocol data links and transmit signals via fiber optics.
The signal is transmitted to a remote end and presented in its original format. Supported data links include GPI inputs, GPI outputs, and serial data interconnections that comply with EIA standards EIA-232, EIA-422, and EIA-485. The OP+DAT module supports bidirectional data links and provides wavelengths of 1310 nm, Coarse Wavelength Division Multiplexing (CWDM), and Dense Wavelength Division Multiplexing (DWDM).
The OP+DAT product can be used in broadcasting, cable television, film production, education, and auditorium applications where data needs to be distributed via fiber optic lines. Typical applications include transmitting data from studios, remote broadcast trucks, or other production facilities to transmission sites/facilities. Other applications include a broadcasting company that requires internal signal transmission due to its buildings being spread across a campus or distributed over long distances in an urban area.
OP+ETH
10/100/1000Base-T Ethernet transceiver
OP+ETH is an independent 10/100/1000 Mb/s tri-speed Ethernet switch, featuring five RJ45 data ports and one dual fiber interface. This product can be used to establish gigabit Ethernet connections for 1310 nm sparse wavelength division multiplexing (CWDM) and dense wavelength division multiplexing (DWDM) optical transmission systems. Additionally, it can create local connections among the five copper ports, aggregating all copper-based network traffic for transmission through the fiber interface. The OPTO+™ Ethernet module represents one of the many interfaces offered on the OPTO+ series products deployed within the industry-leading 6800+™ processing platform.
OP+INT
Internal Communication Optical Transceivers Fiber Solutions // Fiber-based Internal Communication
The OP+INT optical fiber module optimizes the transmission of multiple internal communication channels via fiber optics. Each fiber link of this module provides high-density transmission of 32 channels according to standard protocols, making it particularly suitable for field events, stadiums, and mobile applications. This new module offers both standalone and extended mode versions, capable of bidirectional transmission of multiple channels through fiber optics.
OP+LBR
L-band Satellite Optical Receiver
The OP+LBR optical fiber receiver is capable of receiving optical signals from single-mode or multi-mode fibers and converting them back into L-band electrical signals.
The OP+LBR module receives one optical input and provides two L-band F-type electrical outputs. Since the OP+LBR only occupies two slots in the 6800+™ chassis, a maximum of 10 independent L-band signals can be processed in a 2RU chassis.
OP+LBT
L-band satellite optical transmitter
The OP+LBT optical fiber transmitter can convert satellite L-band signals into the optical frequency domain for transmission via single-mode or multi-mode optical fibers. This module offers 1310 nm and CWDM wavelength options, making it highly versatile in various applications.
The OP+LBT module receives one L-band electrical input (250 MHz to 2.25 GHz) and provides one optical output, as well as an additional electrical output for monitoring and distribution. Since the OP+LBT only occupies two slots in the 6800+™ chassis, up to 10 independent L-band signals can be processed in a 2RU chassis.
HOMS+OP+CxxD
8-channel coaxial HD/SD/ASI input multiplexer, high/low CWDM
HOMS+OP+ is an active multiplexer. The active multiplexer combines the functions of an electro-optical (E-to-O) transmitter and a passive CWDM multiplexer within a high-density module. The multiplexer features four or eight HD/SD/ASI inputs, which are converted into four or eight optical wavelengths. These optical wavelengths are then optically multiplexed onto a single-mode fiber. Each type of multiplexer has four versions, corresponding to high eight, low eight, high four, and low four, totaling 16 wavelengths that comply with the ITU-T G 694 2 standard. Using the optical "Express ports," individual products can be cascaded to fully utilize all 16 CWDM wavelengths, thereby providing the highest sparse wavelength division multiplexing efficiency.
OHDS+OP+CxxD
8-channel Coaxial HD/SD/ASI Output Demultiplexer, High/Low CWDM
HODS+OP+ is an active multiplexer. The active demultiplexer combines the functions of a passive CWDM demultiplexer and an optical-to-electrical (O-to-E) receiver. The demultiplexer features four or eight HD/SD/ASI outputs converted from four or eight optical wavelengths. The optical wavelengths are demultiplexed optically from a single-mode fiber. Each type of demultiplexer has four versions corresponding to high eight, low eight, high four, and low four, totaling 16 wavelengths compliant with the ITU-T G 694 2 standard. Using the optical "Express port," individual products can be cascaded to fully utilize all 16 CWDM wavelengths, thereby providing the highest sparse wavelength division multiplexing efficiency.